• Nett Warrior (Land Warrior 2.0)

A Super Warrior needs hardware and software tools with special user interfaces.

The used software used by us consists of the:

The hardware of the Super Warrior system platform comprises many advanced tools. One of these tools is our CyberMaster CM1, which

Many preliminary considerations and designs were made to find the foundational basis to build up our CM1.
The first design was centered around an over/under dual barrel configuration following the XM29 Objective Individual Combat Weapon (OICW). This approach has been dismissed the first time due to significant improvements made in the meantime (see the Further steps of the 7th of July 2015).
The second design was centered around another over/under dual barrel configuration, but with two bullpup rifles, one with a longer barrel and one with a shorter barrel. This second design allows different configurations in relation with the calibers and ADVanced AMmunition (ADVAM) EXtreme ACcuracy Tasked Ordnance (EXACTO) micromissiles (see also the Roboticle Further steps of the 19th and 27th of October 2015). This approach has been dismissed a second time due to the the same reasons as in the case of the first design.
The third design was a double barrel configuration. This configuration has been dismissed as well due to the the same reasons as in the case of the first design.
For the fourth design we listened carfully the discussion about the amount of cardridges. In relation with the third design we already had a double slot magazine intake. This double magazine configuration is also possible, because the new fourth design and the related arrangement of the system components and modules as well as the functionalities.
Finally, magazine vs. linked/belt argumentation by the U.S. Army is not relevant anymore in this particular relation of assault rifle vs. light machine gun.

We always thought about the option to use an existing rifle as basis for our CyberMaster CM1, but in the end we had too many requirements and inventions, and hence decided that at least a complete derivation is needed for the first generation of the CM1. For its development we looked at many rifles and chose in a second round the following ones as foundation:

• Fabrique Nationale Herstal P90

• Verlaine Corporate Industries (VCI) CBAR-01 (*)
• Nexter Fusil d'Assaut de la Manufacture d'Armes de Saint-Étienne (FAMAS) F1 and G2 (*)
• Israel Weapon Industries (IWI) Tavor TAR-21
• Norinco Type 95 Automatic Rifle QBZ-95 respectively QBZ-97 and QBB-95 Light Support Weapon (LSW)
• Fabrique Nationale (FN) Herstal F2000
• Steyr Mannlicher Steyr Armee-Universal-Gewehr (AUG)
• HS Produkt VHS-2
• Thales F90
• Australian Defence Industries EF88
• Singapure Technologies Kinetics SAR-21
• Enfield L85

• Heckler & Koch G11

• Van Bruaene Rik (VBR) Belgium CAR and CAR-2

• Kel-Tec KSG

• Kel-Tec DP-12

• Alliant Techsystems with Heckler & Koch XM29 Objective Individual Combat Weapon (OICW)
• Australian Defence Industries and Metal Storm Advanced Infantry Combat Weapon (AICW)

• Heckler & Koch G36
• Heckler & Koch XM8
• Kalashnikov AK-12
• Fabrique Nationale (FN) Herstal Special Operations Forces Combat Assault Rifle (SCAR) (*)
• ArmaLite AR-15
• M16 (*)
• M4 carbine
• Heckler & Koch HK416 or G38 respectively HK M4
• M27 Infantry Automatic Rifle (IAR) (*)

• Silver Shadow Gilboa Snake AR-15

• Fabrique Nationale (FN) Herstal M249

Some features of the CM1 are listed below:

• 5.56×45mm NATO at first
• 7.62×51mm NATO and .308 Winchester
• 300 Win Mag on demand
• 12.7×99mm NATO and .50 Browning Machine Gun (.50 BMG)

• shotgun shell 12-gauge 18.5 mm
• grenade .50 BMG 20.4 mm and 25 mm on demand
• EXACTO .50 BMG 20.4 mm
• micromissile .50 BMG 20.4 mm and 25 mm

• conventional ammunition
• semi-caseless ammunition (mix of shotgun shell, XM29 grenade, and caseless ammunition of G11)
  • polymer-cased shell or cartrigde hull with metal head with extractor rim fused at the bottom
  • lightweight, 25% to 40% weight savings over brass-cased ammunition; allows more ammunition to be carried for the same caliber and weight
    • 5.56×45mm NATO 40 - 45%
    • 7.62×51mm NATO 35 - 45%
    • 12.7×99mm NATO 25 - 30%
  • higher velocity compared to common cartridge of the same caliber
  • higher penetrating power compared to common cartridge of the same caliber
  • 3 basic variants for 7.62×51mm NATO and 12.7×99mm NATO
    • standard
    • bursting
    • high explosive on demand

• box
  • 30 round,
  • 60 round, and
  • 100 round
• drum
  • 50 round,
  • 100 round,
  • 200 round, and
  • more round on demand
• variants
  • hard and
  • soft

©© BY-SA 1.0 Rima
© Jean Thomas Rembert and United States Department of Defense

Furthermore, we thought a little about the unification of two (sub-) branches of physics and its application for the integration of two related technologies mentioned in the Further steps of 31st of October 2015, and gained more insight into the foundations on the one hand and implications for at least another subbranch on the other hand. Now, it can already be seen that the next huge revol- ution of us is developing.

iRaiment Further steps
We worked on the next models of our smart cloth series. The basic idea for these models is relatively old and has also been discussed by fashion enthusiasts before, but we also added some new con- cepts of us.

Roboticle Further steps
We used one of our platforms to develope a smaller model in many variants with different components and designs.

04.November.2015
Ontonics Further steps
We developed another concept of a Brain Computer Interface (BCI) by using one of our technologies.

Also, we developed another variant of our sem-caseless ammunition (see also the Further steps of yesterday).

Furthermore, we combined a technology developed on the 21st of October 2015 with a new technology.

Roboticle Further steps
We continued the work on the smaller model developed yesterday, which included a new basic variant, some other variants with new configurations, the use of a relatively new technology of us, and a significant dimensional reduction of a component. The potential is enormous.

Style of Speed Further steps
We improved our Electric Skateboard and Electric Scooter with 4 wheels, which are now in their second generation.
This improvement comprises new dimensions, as well as wheels and another component.

05.November.2015
Ontonics Further steps
More by happenstance we found out a solution for a specific problem that seen from the conceptual point of view is similar to the problem related with the unification of two (sub-) branches of physics and its application for the integration of two related technologies, which have been mentioned in the Further steps of 31st of October 2015 and 3rd of November 2015.
This is absolutely fascinating and also somewhat confusing, to be honest, because even for us the pace of development of our next huge revolutions is a little too fast.

We also worked on a special application of one of our electric energy storage devices and after we improved it more and more, we con- cluded that we have not developed a new application, but confirmed our already existing solution and improved its usability in at least two ways.

iRaiment Further steps
We added a feature to some of our product series. Even better, we might reuse another component for this.

Furthermore, we improved a technology in several ways.

06.November.2015
Comment of the Day
Smart flight jacket™
Smart bomber™
Smart hoodie™

Ontonics Super Warrior #2
For sure, we also have an Air Warrior model of our Super Warrior platform (see the issue #1 publicated on the 3rd of November 2015) that is based on one of our smart flight jackets presented by iRaiment today.

iRaiment Further steps
Today, we would like to show some models of our smart clothing series.
One of C.S.' all time favorites, the USAF CWU 45/P flight jacket or MA-2 bomber jacket in Nomex, has been transformed into the 21st century already around 15 years ago with our smart bomber™ jacket.

© Alpha Industries

More designs of classic flight jackets, including the A-2 and the MA-1, have been transformed to smart flight and smart bomber jackets.

© U.S. Authentic and Gibson & Barnes

In this relation, we would like to show our MA-1 inspired smart bomber jacket series.

© Jaffary Garments, :(, C.P. Company, and iRaiment

We did not stop at this point and present more smart blousons without and with hood inspired by flight jackets and bomber jackets (see also the Further steps of the 26th of October 2015 and ...), that come in wool, leather, neoprene, hightech materials, and compounds of them. The images show the neoprene models.
Indeed, Marty and Doc Brown would be fascinated. Where we are going, we need ... smart jackets ... in *style*.

© :(, :(, :(, Victorian Uncut, Mil-Tec, Topshop, Live Free, :(, and Burberry

We did not stop more smart varsity, smart baseball, or smart coach jackets.


© Kris van Assche for Union Los Angeles, IRIS Knitting, Parrot, Douuod, and iRaiment

We have also selected additional designs and materials for our multi- couture smart coats (see also the Further steps of the 1st and 2nd of November 2015).

© Thierry Mugler, Neil Barrett, Marc Philippe Coudeyre, Joe Fresh, Douuod, and Kenzo

We do know that there are not many smartwatches for ladies with the exception of e.g. our unisex models, actually. But this is not the case in relation with our sm@rtwear and iraiment, as it can be seen with the solid contoured multicouture jackets, which comprises short smart jackets and the smart kimono.


© Cushnie et Ochs, Roksanda Ilincic, Kenzo, and :(

The sm@rtwear and iraiment series come in wool, leather, neoprene, hightech materials, and compounds of them, as well as in many colours. The images above only show the neoprene models in one colour or with a pattern in two colours, which has not to be under- stood as any restrictions.

Furthermore, we designed another model of one of the devices based on the new hardware architecture mentioned in the Ontonics Further steps of the 1st and the iRaiment Further steps of the 5th of November 2015.

07.November.2015
iRaiment Further steps
We complemented and rounded up our smart clothing series.
At first, we have two more smart flight jackets to show.

© Phillip Lim and Never Denim

In addition, we would like to show some more smart coats.

© Douuod, :(, and Loco Mocco

Finally, we have another smart jacket of our multicouture series.

© Douuod

The sm@rtwear and iraiment series come in wool, leather, neoprene, hightech materials, and compounds of them, as well as in many colours. The images above only show the neoprene models in one colour or with a pattern in two colours, which has not to be under- stood as any restrictions.

08.November.2015
Ontonics Further steps
For a concept, about which we thought several times in the last past, we developed a specific variant of a material.

09.November.2015
Ontonics Further steps
We developed our variant of a technology and applications of it.

In addition, we developed a new variant of one of our technologies and applications of it.

Ontonics, OntoLix and OntoLinux Further steps
We developed a slightly different variant of our system, which is extremely promising, because it can be realized without much effort by using already existing components, provides many interesting functions, fits into our system architecture, and gives us further advantages not disclosed at this time.

Ontonics and Ontologics.info Further steps
We have also integrated the new system developed by Ontonics and Ontologics (includes OntoLix and OntoLinux) today with our Onto- logic Information System (OIS).

10.November.2015
Comment of the Day #1
Smart gilet™
Smart parka™

Comment of the Day #2
"Android? Where we're going, we don't need ... Android."

Ontonics Further steps
What an incredible performance by the OntoLab and Style of Speed. They really managed to upgrade our SwarmSat satellite network system (see the Further steps of the 16th of August 2015 and 8th of September 2015), so that it is now ready to go into the Geo- stationary Earth Orbit (GEO) and even beyond. That is not only fascinating anymore.
With this step we will change everything once again from commun- ication over online mapping and Geographic information system (GIS) to highly complex applications.

Besides this, we worked on an integrated technology to decide if it really makes sense.

Also, we adapted a specific technology already used with one of our technologies for our specific variant of another technology of us.
In addition, we applied it for several device architectures. Definitely revolutionary.

Ontonics Super Warrior #3
For sure, we also have a Ground Warrior model of our Super Warrior platform (see the Further steps of the 3rd of November 2015) that is based on one of our smart field jackets presented in parts by iRaiment today.

Ontoscope Further steps
We have developed two other module variants of a device, which are really amazing.
In addition, we derived another model from this device.

Furthermore, we thought about the launch of the production phase of our second Virtual Reality Head-Mounted Display (VRHMD) and Mixed Reality Head-Mounted Display (MRHMD) models. But first comes the selection problem.

iRaiment Further steps
Many years ago we already wanted to show our smart vest and because we were asked to present another smart coat we used the occasion to show both today.

At first, we have transformed Marty McFly's Class 5 down vest into the 21st century already around 15 years ago with our smart vests. Shown here is the vest in burnt orange colour.

© Class 5

Btw.: At that time, C.S. also wore a red down vest and the low tennis shoe model Nike Wimbledon with the baby blue swoosh and the high basketball shoe model Nike Blazer with the red swoosh as sneakers, but not the Nike Bruins sneakers. You cannot imagine how difficult it was to get them (Wimbledon imported from U.S.A. over at least four persons, which took more than 6 months; Blazer bought in a very specialized basketball shop) and the mobbing was because of wearing these shoes and a year later after the Blazer shoes C.S. was virtually the only one wearing Adidas again.

We also have some more new smart gilets or smart vests for Marty and for sure everybody else that have more ... *style*.

© Barbour

We complemented our smart jacket and smart coat series already a further time on the 7th of November 2015, but at the request of a fan we would like to present the related special smart coat model, or to be more precise, the transformation of the USAF N-3B parka into our smart parka.




© Alpha Industries

Finally, we would also like to add another smart jacket, which is a further favorite of C.S., the USA M-1965 (short M-65) ALS/92 field jacket liner.

© Alpha Industries

The sm@rtwear and iraiment series come in wool, leather, neoprene, hightech materials, and compounds of them, as well as in many colours. The images above only show the hightech nylon models in one colour or with a pattern in two colours, which has not to be understood as any restrictions.

11.November.2015
Ontonics Further steps
We worked again on our variant of a foundational technology and could confirm its superior features and outstanding advantages.

Furthermore, we developed a new device architecture and some devices based on it.

In addition, we developed a new component. Because this component and other components developed recently are variants of components used for a mature technology and related devices, we can directly begin with the production phase.
In this relation, we reviewed an important part of the foundational concept once again, which confirmed that the outlook is still very good.

Finally, we made a rough estimation of the cost of another applic- ation and then added it to the range of our SwarmSat system applications.

Ontonics Super Warrior #4
In the last days we developed a foundational component of the CyberMaster CM1, which became more and more elegant, efficient, useable, and convincing.

Ontoscope Further steps
We have developed a new model.

intelliTablet Further steps
We developed a new tablet computer model.

iRaiment Further steps
We have sorted out the designs for our next smartsneaker model series. When we could not make a decision, then we simply took all alternative model series. In the last round of selection we have to harmonize the model series, so that they are distinctive enough from each other.

We also developed a new smartwatch model.

12.November.2015
Ontonics Further steps
We developed another application for our SwarmSat system, which provides an astonishing performance.

Ontonics Flightsuit #2
Because we were reminded that we have some personal aerial app- aratuses (see the contents of the 24th of September 2014) and also remembered that we have some new materials and technologies in our stocks, we would like to show the latest state of development in relation with our winged flightsuit or powered wingsuit, which:

• with or without folding wing mechanism and
• for users with long, less, or even no flying experience,

Actually, we are making the last decisions about the design, spec- ifically how large the wing area has to be and if we have to arrange some components to other positions for being more efficient.

The image below shows a preliminary flight test proving the excellent high speed glide qualities of the winged flightsuit or powered wing- suit model and the load carrying equipment.

©© BY 2.0 Richard Schneider

The flightsuit is not a rocket or ducted fan powered jetpack, and may be shown in the next movie of the James Bond series.

Now that we have literally spoken a flightsuit, we added to the Innovation-Pipeline our new projects called:

The Superman delivery service is a common single-carrier service, that comprises a carrier, who has an ultralight aircraft pilot license, wears one of our winged flightsuits, and delivers arbitrary items to other recipients in high speed.
The Superman delivery service also works together with our delivery drone™ service by flying one drone, a drone (mule) train, or a drone swarm with the carrier, who controls it. In this way, we solve many practical problems with delivery drone service and fulfill the rules of most federal aviation administrations.

Style of Speed Further steps
We designed another model of our Odonata class aircrafts (see the related Further steps of the 8th of February 2015).

13.November.2015
Ontonics Further steps
More for getting a deeper insight, but also for enjoying the explorat- ion of unknown territory and the hunting for treasures, we research some foundational principles and technologies. This led to a potent- ially new battery variant or even new type of battery.

Also, we developed two components in two different variants each. The performances of the components are outstanding, not to say revolutionary, but sadly to say one component is not a solution that we anticipated and at first thought to have found finally.

Ontoscope Further steps
We have developed a new model, which is based on the model developed on the 9th of November 2015 and the technologies developed by Ontonics in the last past.

intelliTablet Further steps
We developed a new tablet computer model, which is based on the model developed on the 9th of November 2015 and the technologies developed by Ontonics in the last past.

iRaiment Further steps
We developed a new smartwatch model, which is based on the model developed on the 9th of November 2015 and the technologies developed by Ontonics in the last past.

Style of Speed Further steps
In relation with the new model mentioned yesterday we designed a new wing, which can be used with other aircrafts as well. But we cannot claim if this new wing has any relevance in practical use.

Furthermore, we developed a new exterior concept that has not been conceived before, as far as we know, and a related production technique.

14.November.2015
Website update
We renamed the titles of the Further steps of the:

Ontonics Further steps
We optimized one of the components mentioned yesterday.

Ontonics Super Warrior #5
In relation with the foundational component of our Super Warrior tool CyberMaster CM1 developed in the last days (see the issue #1 of the 3rd and issue #4 of the 11th of November 2015) we would like to give some more informations, though they will be relatively unprecise in relation with the technical details and the terms used for very good reasons.

16.November.2015
Style of Speed Further steps
We worked on two details of the 9x9 project (see for example the Investigations::Car #395 of the 16th of September 2015 and the Further steps of the 17th of September 2015), which are the lights of some or all models and the doors of at least one model.

17.November.2015
Comment of the Day
"Freedom is not for free."

Ontonics Further steps
In the meantime we have improved our battery technologies (read for example the Clarification of the 2nd of August 2015 and the hyperlinks given therein once again) in relation to their volumetric and gravimetric energy densities, which translated into more power and less weight, as well as in relation to their practicability, manu- facturability, and usability. Durability was never a problem for us somehow in stark contrast to all competitors.

For some time, we are also comparing two electric energy storage technologies, and today we came to the conclusion once again that the known data is contradictory.
Nevertheless, at least we know what we want, how to reach our goals, and that our data is correct.

In addition, we applied the same general concept, which has been developed as a solution for a problem of a technology mentioned in the Further steps of the 16th of September 2015, to a similar tech- nology for the same purpose.

Ontoscope Further steps
We developed a second Holo model (see also the Ontoscope Further steps of the 20th of September 2014 and 28th of October 2015), which has additional advantageous functions.

In addition, we developed two new models, which could be seen as the next generation of an existing model.

iRaiment Further steps
We decided to develop a special smart jacket model after seeing the demand for it.

As we already mentioned in several Ontonics and iRaiment Further steps of the last past, we are working on some mobile devices (see for example the Ontonics Further steps of the 1st of November 2015). But after many weeks of consideration we still are unable to decide which model should be the favorite one. Said this, we will work on all models and their variants simultaneously and let our fans and the customers decide if they want one or more of them at all and which one is their favorite.
In further considerations made, we developed one model further.
At least, we might have found our favorites.

It might also be interesting for our readers, that it has not been decided actually which business division will be responsible for these devices.

Please keep in mind that our stationary and mobile devices:

• the Linux kernel based operating systems Google→Android,
• the operating system Microsoft→Windows, and
• their proprietary economic systems,

or/and

• an extended guarantee by the factory,
• other features for free, and
• an option to unlock for free.

Style of Speed Further steps
We developed a slightly different Active Lightning concept or design.

18.November.2015
Ontonics Further steps
We have developed a specific variant of the device mentioned in the Further steps of the 21st of October 2015.

In relation with this device we found out that it solves two problems with the foundational technology.
Also interesting, one variant has such characteristics that would question related governmental rulings in a way, which is highly advantageous for us.

We also continued our work in relation with very strong encryption, which included the integration of a technology with our technology, which again increased the performance significantly and provides the foundations for further improvements.

19.November.2015
Ontonics Further steps
In the course of further research and development we have found out several months ago already, that some of our Carbon based Quantum dot based Light-Emitting Diode (CQLED) displays are not fulfilling the requirement specification, which make them unusable for very many applications.
The gained insights have been used to optimize for example the affected variants of our Electronic Glass and Electronic Plastic/ Polymer series, which led to the new projects:

as well as

but also other applications (see for example the iRaiment Further steps of today).

Today, we even found out that one new technology works far better than the best expectations have predicted and only a little more detail work has still to be done to make it a product.

Also, we began the production phase of our encryption chip for stationary and mobile devices, and enforced related activities.

iRaiment Further steps
We are pleased to announce our smart eyewear 3.0 platform, that comprises three overworked hardware architectures, many improved basic components, which did not work for the smart eyewear 2.0 platform, and also new components in accordance with our related model series.

Roboticle Further steps
We continued the work on the smaller model introduced with the Further steps of the 3rd of November 2015. As results, the arch- itecture has been confirmed and its cost effectiveness reviewed, which implies it entered the production phase.

20.November.2015
OntoLix and OntoLinux Further steps
Arriving out of the blue, we found highly potential evidences that microkernels of operating systems, such as microkernels of the L4 family for example, seem to be very vulnerable against attacks even if they are completely validated and verified. Due to the sensibility of the issue and our related business secrets we will not go into any details.
Luckily, we replaced L4 microkernels and similar microkernels based on the capability approach with our own truly secure operating system kernels several years ago.

Roboticle Further steps
Thanks to our many developments in relation with our UAV solutions and services, like for example our multidrone and our delivery drone (see for example the Further steps of the 11th of August 2015 but also the many other related Further steps of Roboticle and other business divisions), we could solve once again many open problems.
But now we have reached a matured and proven technological level with our specific proprietary drone models, that demands the federal aviation administrations to install new rulings, which are much more liberal, and to remove existing rulings, like for example the mandatory line of sight control.

OntoLab and iRaiment Open Glasses #9
As announced in for example issue #8 publicated on the 3rd of June 2015, we have made several more improvements of the basic model of our Open Glasses platform once again (see the issues #6 and #7 publicated on the 16th of January 2015 and 7th of February 2015).
Depending on the specific variants run in permanent video mode we have now the following comparison of battery runtimes:

of our Open Glasses platform.

With such a high performance, we even have to think about taking the third model generation out of this open source hardware and software project and putting it into our common product line of iRaiment.

21.November.2015
Ontonics Further steps
We developed a new Electronic Glass in two variants and added related projects to the Innovation-Pipeline called:

In addition, we worked on a technology and at least designed a way respectively developed a concept how another relatively new tech- nology could be integrated. If successful, the efficiency of the initial technology can be enhanced in two ways.

Furthermore, on the basis of the specific variant of a device ment- ioned in the Further steps of the 18th of November 2015 we devel- oped another specific device.

iRaiment Further steps
Since around two years, we were thinking about a very specific design of a smart eyewear model, but somehow we were unable to work out a satisfying solution. Today, we finally found a possibility, which literally spoken was all the time in front of our eyes, and could develop a new hardware architecture and at least two foundational model series.
Said first specific smart eyewear model design taken alone is a great pleasure for us, but the new hardware architecture also provides a problem solution that is only amazing and incredibly cool, and very rewarding for all the invested time. Like some smartwatch models of us this first design is already a classics for the museum without realization.
Extra pleasing is the fact, that we have working prototypes of all components and that they can be easily assembled to one device.

For sure, we played around with our new smart eyewear hardware architecture and were able to add a technology developed recently for a problem that is not a foundational but maybe a practical problem.

In addition, we developed a new hardware architecture.

We also created a new model series, which is really extraordinary.

As usual, we do not stop at any point. Said this, we might have found our next product.

22.November.2015
Ontonics Further steps
In the last day, we worked on different component variants of a module and made some improvements of this module. It will be highly interesting to see the module running and to measure the efficiency of its first generation.

In this relation, we thought about combining the module mentioned before with another module, which we worked on some weeks ago, to accelerate an internal process.

Furthermore, we also thought about some older components and an improvement of them in the last days. Today, we concluded that we have overlooked how advantageous the integration of another tech- nology, which we used for the development of the two components mentioned in the Further steps of the 13th of November 2015, really is.
For sure, the consequence was to catch up on the integration of this technology with these older components to create their next generation in this way. Simultaneously, we also increased their performances.

Beside the works reported above, we also added another function to a technology, which might be needed for adjustment.

iRaiment Further steps
We worked on another product and related models for many years, which together with related developments led now to the internal start of the related product series.

In addition, we improved a smart eyewear model.

23.November.2015
Ontonics Further steps

We made a decision in relation with the specification of one of our new processor series, so that we can continue with the realization of its first processor models and the related systems based on it.

Today, we stopped all of our projects, which are based on the sweetener stevia extracted from the leaves of the plant species stevia rebaudiana and are having the term stevia in their names.
The reason for this decision is that stevia did not work as expected. Similar recipes have been tried by for example producers of soft drinks inclusive the company Coca-Cola with its clone product of our Stevia Cola and Vita Cola. The same was the case for our second recipe mentioned in a Further steps some years ago that included another sweetener.
Nevertheless, we have started new projects to continue with the research and development activities and already found some interesting directions for future work.

Furthermore, we were reminded some times ago, that a Vita Cola already exists in the B.R.D., so that we began to search for a new name.

Another related step is the addition of two new projects that are related with another food.

Style of Speed Further steps
We are pleased to announce our AutoBrain 3.0, which uses our latest processor series. Now, the game changer is even faster than it was already before.
We also want to use these new processors for other High-Perform- ance Computing (HPC) systems in the automotive sector, because the other manufacturers are still making claims, which they are unable to fulfill in the next decade without having the needed plan, hardware, and software, while we have everything in our stocks since more than a year now.

Details about the new generation of the Active Components and the related Computing and Multimedia technologies will be given to an appropriated time.
At this point we would like to give the information once again that our Electronic Control Unit (ECU), our High-Performance Computing (HPC) platforms, and other supporting systems are obligatory for using our actual and upcoming Active Components, and Computing and Multimedia technologies.

24.November.2015
Ontonics Further steps
We played around with the adjustment function of a technology mentioned in the Further steps of the 22nd of November 2015 and somehow ended with a most potentially new material. Innovation happens.

In a subsequent step, we developed a technology that functions in a similar way. This material on the one hand and to see how a technology begins to mature on the other hand is really interesting.

Style of Speed Further steps
We designed some parts.

In relation with the 9x9 project we tried out some new design elem- ents created and collected in the last weeks and their combinations with existing design elements. Especially noteable is the point that it has become more and more easier for us to handle the different models and their distinct designs.

Some of the new design elements would also fit with the models of our Unicorn series, which are the successors of our conversions of models manufactured by the marques Fiat→Ferrari and Volkswagen→ Audi→Lamborghini (see also the Ontonics and Style of Speed Further steps of the 8th of February 2015 for their logos).

25.November.2015
Style of Speed Further steps
We would like to show a concept of an AeroSpaceShip (ASS) with Vertical Take-Off and Landing (VTOL) capability, which looks similar to our Space Launch System (SLS) and Space Transportation System (STS) with Single-Stage-To-Orbit (SSTO) Reusable Launch Vehicle (RLV) Space Shuttle III/BigStar.
Independently of this concept, we developed our own variant of a VTOL system for our Hypersonic Cruise Vehicle HCV-1/WhiteSwift and our Space Transportation System (STS) with Reusable Launch Vehicle (RLV) of the Next Generation (NG) Space Shuttle NG X-3033/MagicStar (see the Further steps of the 1st, 13th, 14th, and 15th of July 2015), which is much more secure than a Vertical Takeoff, Vertical Landing (VTVL) firework rocket, because our vehicles:

© Rob Sanders and Alex Jay Brady

In this relation we would also like to direct the interest of our readers to the VTVL SSTO RLV mentioned in relation with our fusion rocket engines presented in the Further steps of the 10th of July 2015.

Yes, it works™

26.November.2015
Ontonics Further steps
We improved the technology mentioned in the Further steps of the 21st of November 2015.

We also improved a specific model of a device, which is not very complex, but more handy, has some nice details, and works very well together with some other devices of us.

In addition, we found at least one possibility that could improve our fusion reactor technology (see also the related Further steps of the 15th, 17th, and 22nd of July 2015, and also 22nd of August 2015).

iRaiment Further steps
We used an improved technology, which in general gives us more freedom in relation with the designs of our models.

28.November.2015
Ontonics Further steps
In the last days, we worked on a specific manufacturing process, that somehow is missing, while alternatives are not always the best choice and also are only working in the laboratories.

Furthermore, we improved an electric energy storage device in two different foundational ways. Actually, we are not sure if it works exactly as we want, but it seems to provide a significantly improved volumetric energy density, which would be a sensation.
Also very interesting is the fact, that we already have a process and facilities for production.

In addition, we also worked on different aspects of some of our mobile devices.

iRaiment Further steps
We worked a little on a specific device.

Style of Speed Further steps
In the last days, we also worked on another complete Space Launch System (SLS) based on our fusion rocket engine (see the Further steps of the 10th and 15th of July 2015, and also 24th of August 2015 and 16th of September 2015). After we only sketched a simple configuration in the last days, we have taken a closer look at its efficiency today and find out that it is already competitive to a common rocket based SLS.
Even better, as more we are coming closer to a working system as more advantages could be seen, as more astonishing the advant- ages become, as more possibilities can be realized, and consequently as greater becomes the revolution.

In the next step we will continue this work to find the right balance between the vehicle's design and dimension, and its components, modules, and subsystems.

29.November.2015
Ontonics Further steps
We developed a new electric energy storage device. But we will not publicate any details of its performance.

iRaiment Further steps
We extended the applicability of a solution.

30.November.2015
OntoLix and OntoLinux Further steps
We developed one of our microkernels further, that has an additional functionality now.

We also continued with the implementation of our other microkernel.

Furthermore, we looked on the way we have to implement a specific variant of one of our microkernels.

Style of Speed Further steps
While looking around in the fields of hypersonic aircrafts and space- planes, and comparing our old designs from the last two decades and our latest designs (see also the Further steps of the 1st, 13th, 14th, and 15th of July 2015 again), we suddenly had the idea to change a new element of the exterior in a very simple but highly advantageous way.
Even better, the new design seems to be a foundation for our works related with the reduction of the sonic boom on the one side and the air-augmented rocket engines on the other side.